Split/Splitless (S/SL) Inlet for GC
Split/Splitless Inlet
An optional version of the inlet uses Agilent Ultra Inert (UI) deactivation technology to prevent adsorption of active compounds. When used with UI consumables (inlet liner, check-out column, gold seal, UltiMetal Flexible Metal ferrules), an inert flow path improves performance for sensitive analytes at very low concentration levels.
- GC Inlets
Product Details
- Suitable for use with all capillary columns from 50 µm to 530 µm internal diameter
- Pulsed splitless and pulsed split modes allow you to inject higher sample volumes
- Unique turn-top sealing system is standard for quick and easy liner replacement
- Optional inert flow path split/splitless inlet facilitates accurate results for applications involving active compounds
- Split ratios up to 12,500:1 for 8890, 8860, and Intuvo 9000 GCs (7,500:1 for the 7890B GC) to avoid column overload
- Maximum operating temperature of 400 °C
- Gas Saver mode reduces carrier gas consumption without compromising performance
- Electronic septum purge flow control for 8890 and Intuvo 9000 GCs to eliminate ghost peaks
- Choose 0-100 psi inlet, 0-100 psi inert flow path inlet, or 0-150 psi inlet (for use with 0.100 id columns; not optimal for 0.530 id columns)
- Application Notes
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Analysis of Halogenated Hydrocarbons, Benzene, and Derivatives in Drinking Water
This application note shows the analysis of halogenated hydrocarbons, and benzene and its derivatives in drinking water per GB/T 5750.8-2022 using the Agilent 8697 headspace sampler and Agilent 8890 GC.
- Application Notes
- English
- 30 Apr 2024
- 1.17 MB
Analysis of Phthalate with Hydrogen Carrier Gas
This application note shows the analysis of phthalate with hydrogen carrier gas using the Agilent HydroInert source on a challenging cable sample in GC/MS.
- Application Notes
- English
- 19 Mar 2024
- 429.38 KB
Analysis of Flavor Compounds in Beer using the Integrated Agilent 8697 Headspace Sampler with the Agilent 8890 GC System
Analysis of Flavor Compounds in Beer using 8697 headspace and 8890GC.
- Application Notes
- English
- 22 Feb 2024
- 620.35 KB
Automated Sample Preparation Using Agilent PAL3 RTC for EPA 8270E SVOC Analysis by GC/TQ
Automated Sample Preparation Using PAL3 RTC System for EPA 8270E Method for Semivolatile Organic Analysis by GC/TQ
- Application Notes
- English
- 08 Feb 2024
- 772.66 KB
Essential Oils Analysis Using GC/MS with Hydrogen and the Agilent HydroInert Source
This application note describes the conversion of a typical GC/MS method for the qualitative analysis of flavor and fragrance compounds in essential oils from helium to hydrogen.
- Application Notes
- English
- 30 Jan 2024
- 2.04 MB
Using Hydrogen Carrier Gas with the Agilent HydroInert Source for Drug Analysis
This application note outlines the translation of a GC/MS forensic drug screening method from using helium to hydrogen carrier gas by applying the HydroInert source.
- Application Notes
- English
- 21 Dec 2023
- 1.77 MB
Differences in Metabolic Profiles of Individuals with Heart Failure Using High-Resolution GC/Q-TOF
This application note describes a GC/Q-TOF untargeted metabolomics workflow that uses the Agilent accurate mass metabolomics PCDL as well as unit mass libraries for compound identification.
- Application Notes
- English
- 16 Nov 2023
- 1.50 MB
Enhancing Sensitivity in Analysis of Semivolatile Organic Compounds with the Agilent 8890/5977C GC/MSD
Performance of an Agilent 8890/5977C GC/MSD in the analysis of semivolatile organic compounds (SVOCs) at both traditional and enhanced sensitivity levels.
- Application Notes
- English
- 14 Sep 2023
- 1017.13 KB
Method Translation and Evaluation to Implement Nitrogen Carrier Gas in the Dual-Flame Ionization Detector Configuration for Blood Alcohol Analysis
Explore features on the Agilent 8890 GC/8697 headspace sampler system for implementing nitrogen carrier gas in the dual-flame ionization detector configuration for blood alcohol analysis.
- Application Notes
- English
- 11 Aug 2023
- 617.69 KB
Identification of Metabolites in Porcine Serum with Hydrogen Carrier Gas
The current study focuses on the analysis of metabolites from the Agilent Fiehn 2013 GC/MS metabolomics retention time locking (RTL) library on a single quadrupole GC/MS using hydrogen as the GC carrier gas.
- Application Notes
- English
- 21 Jul 2023
- 472.77 KB
- Data Sheets
- Posters
- Quick Reference Guides
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Gas Chromatography Inlets
Highlights the features of and differences between GC inlets.
- Quick Reference Guides
- English
- 10 Jun 2022
- 165.35 KB
Agilent Ultra Inert Supplies Quick Reference Guide
For trace level analysis on very active compounds, Agilent Inert Flow Path solutions ensure a reliably inert flow path. This reference guide lists the supplies you need.
- Quick Reference Guides
- English
- 21 Jan 2021
- 479.06 KB
- Troubleshooting Guide
- User Manuals
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Fast Residual Solvents and Terpenes Analyses in Cannabis and Hemp Products
New methods have been developed for the analysis of residual solvents and terpenes in cannabis and hemp products using a single 7697A Headspace Sampler/Intuvo 9000 GC/5977B MSD system. Results are approximately 50% and 30% faster for the solvents and terpenes, respectively, compared to the original applications. The single platform-two analyses approach has been successfully implemented in labs across North America.
- 29 Jan 2024